Now the RFID is being considered for 24-7 human location monitoring. In Western civilization, RFID is being used for tracking merchandise and similar devices are used in our family pets to locate them should they roam astray.
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Section II. Previous WorkĪlthough cybernetic technologies have boundless potential to surface under an array of interchangeable names, for the purpose of this paper, RFID implants will be investigated given the degree of global attention they have experienced –. A clear distinction will be made between nanotechnologies that can be used as a mechanism of control versus, for example, bio-medical technologies that are freely chosen and designed for the sole purpose of improving human health with no benefit extending beyond the aid of the individual. In order to later contextualize the issues surrounding human rights of refusal, this paper will now present a material view of implantable technologies in their nascent stage. The fundamental concerns will rest within human willingness to adopt the technology, and not in what the technology claims to eradicate in and of itself. Regardless of the breakthroughs to come in these humancentric embedded surveillance devices (ESDs), we will soon be moving the discussion beyond, merely how the technologies are aiding humanity, regardless of whether such technologies are mobilized to aid human health or impair it. 198-214, in the context of nanotechnology ethical and social implications. Humancentric implants are discussed, pp. The next step in the miniaturization path for RFID microchips is nanotechnology, which allows for working at the nanoscale, that is the molecular level p. “The sensors would circulate through the bloodstream and could be monitored at a place where blood vessels are closest to the surface, such as the eye… While quite invasive, so-called in vivo sensors could also have other uses in continually monitoring the health of a soldier” , p. An example cited in Ratner & Ratner that demonstrates the potential for nanotechnology to bring together RFID, sensors, and the biomedical realms is to inject nanobots into a soldier's bloodstream. Biomedical devices usually have a specific function, like the provision of an artificial knee or hip, and can contain RFID and other specific sensors. Sensors onboard an RFID device can, for instance, provide additional data such as an individual's temperature reading, pulse rate and heart rate. RFID implants can be passive or active, and predominantly have a function to broadcast a unique ID when triggered by a reader within a specific read range. In non-medical applications, implantable devices are used for identification, location and condition monitoring, care and convenience use cases. The most common implantable devices are used in the medical domain, for example, heart pacemakers and implantable cardioverter defibrillators (ICDs). Significant factors leading to continued innovation include: convergence in devices, miniaturisation, storage capacity, and materials.
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Radiofrequency identification (RFID) implant technology, sensor technology, biomedical devices, and nanotechnology continue to find increasing application in a variety of vertical markets.
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The paper concludes with a discussion on the importance of protecting human rights and freedoms and the right to opt-out of sub-dermal devices. This paper uses the penal metaphor to explore the potential negative impact of enforced microchipping. The trichotomy facing consumers are: (1) to adopt RFID implants as a means of self-expression or to resolve a technological challenge (2) to adopt RFID implants for diagnostic or prosthetic purposes to aid in restorative health as well as considerations (3) for enforced adoption stemming from institutional or organizational top-down control that has no direct benefit to the end-user. As these technologies gather momentum in the marketplace, consumers will need to navigate the changing cybernetic landscape. Embedded radio-frequency identification, sensor technologies, biomedical devices and a new breed of nanotechnologies are now being commercialized within a variety of contexts and use cases.